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192.168.1.100 / T106_DC / 6c8fc1e87e1a0b6b620c62db0666f6495dc6e045 / . / ap / app / zte_comm / rtc-service / rtc-service.c
blob: 891af8552dc19c8309e906312621bfb3f3f567d4 [file] [log] [blame]
/**
* @file rtc-service.c
* @brief Implementation of Sanechips
*
* Copyright (C) 2017 Sanechips Technology Co., Ltd.
* @author linxu Gebin
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
*/
/*******************************************************************************
* Include header files *
******************************************************************************/
#include "rtc-service.h"
#include "hotplug.h"
#include <limits.h>
/*******************************************************************************
* Global variable definitions *
******************************************************************************/
int g_rtc_fd = 0;
struct list_head rtc_timer_list;
struct list_head rtc_alarm_list;
#define RTC_ALARM_TIMEOUT_MSG "PMIC RTC ALARM IRQ COME"
#define RTC_TIMER_TIMEOUT_MSG "PMIC RTC TIMER IRQ COME"
#ifdef PRODUCT_NOT_USE_RTC
time_t g_set_softtime;
#define RTC_USE_SOFTTIMER_ID 300 //µ±Ã»ÓÐrtcʱ£¬Ô­ÏÈʹÓÃrtc¶¨Ê±Æ÷µÄÓÐrtcͳһÊÊÅäµ½softtimerÉÏ£¬Õû¸ö¿ò¼Ü²»±ä
#endif
/*******************************************************************************
* Local variable definitions *
******************************************************************************/
static pthread_t rtc_looper_id = 0;
static int g_clean_flag = 0;
static int g_time_offset = 2; //ÔÊÐíÎó²î·¶Î§£¬ÊÊÅärtcºÍOSʱÖÓƵÂʲ»Ò»ÖÂÎÊÌâ
/*******************************************************************************
* Local function implementations *
******************************************************************************/
static int open_rtc(void);
static void close_rtc(int fd);
static void* rtc_looper();
static int start_rtc_thread();
static int handle_get_time(MSG_BUF *pmsg_buf);
static int handle_set_time(MSG_BUF *pmsg_buf);
static int handle_alarm_add(MSG_BUF *pmsg_buf);
static int handle_alarm_del(MSG_BUF *pmsg_buf);
static int handle_alarm_timeout(MSG_BUF *pmsg_buf);
static int process_msg(MSG_BUF *pmsg_buf);
static int process_msg_rtc_cap(MSG_BUF *pmsg_buf);
static void msg_looper(void);
static void update_timer_remain(int new_remian);
static void alarm_fix_value(struct list_head *rtc_list);
static void alarm_restart(struct list_head *rtc_list);
static void update_alarm();
static void alarm_adjust_value(int time);
static long get_RtcTime();
static void convert_time(time_t timeSec, struct tm * tmTime, TIME_CONVERT_TYPE type);
static void convert_time(time_t timeSec, struct tm * tmTime, TIME_CONVERT_TYPE type)
{
time_t tmpTime = 0;
if(tmTime == NULL) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: wrong input param, check it! \n");
return ;
}
tmpTime = timeSec;
if(type == CONVERT_TYPE_RTC) {
gmtime_r((time_t*)&tmpTime, tmTime);
}
else {
localtime_r((time_t*)&tmpTime, tmTime);
}
slog(RTC_PRINT, SLOG_DEBUG, "Time:%ld, tm_year:%d, tm_mon:%d, tm_hour:%d, tm_min:%d, tm_sec:%d, tm_yday:%d, tm_mday:%d, tm_wday:%d \n",
mktime(tmTime), tmTime->tm_year, tmTime->tm_mon, tmTime->tm_hour, tmTime->tm_min, tmTime->tm_sec, tmTime->tm_yday, tmTime->tm_mday, tmTime->tm_wday);
}
static long get_RtcTime()
{
long curRtcTime = 0;
struct rtc_time rtc_tm = {0};
struct tm tmp = {0};
if(g_rtc_fd <= 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: g_rtc_fd: %d , invalid fd. \n", g_rtc_fd);
return -1;
}
if(ioctl(g_rtc_fd, RTC_RD_TIME, &rtc_tm) < 0) // cov M CHECKED_RETURN
{
slog(RTC_PRINT, SLOG_ERR, "ioctl fail.\n");
}
tmp.tm_sec = rtc_tm.tm_sec;
tmp.tm_min= rtc_tm.tm_min;
tmp.tm_hour= rtc_tm.tm_hour;
tmp.tm_mon= rtc_tm.tm_mon;
tmp.tm_year= rtc_tm.tm_year;
tmp.tm_mday= rtc_tm.tm_mday;
tmp.tm_wday= rtc_tm.tm_wday;
tmp.tm_yday= rtc_tm.tm_yday;
tmp.tm_isdst= rtc_tm.tm_isdst;
curRtcTime = mktime(&tmp);
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: curRtcTime: %ld . \n", curRtcTime);
return curRtcTime;
}
static void write_lockfile(char *filepath, char *setbuf)
{
int f, len = 0;
f = open(filepath, O_RDWR);
if (f == -1) {
return;
}
len = strlen(setbuf);
if (write(f, setbuf, len) != len) {
} else {
}
close(f);
}
static void wake_rtc_lock()
{
write_lockfile("/sys/power/wake_lock", "rtc_lock");
}
static void wake_rtc_unlock()
{
write_lockfile("/sys/power/wake_unlock", "rtc_lock");
}
static void wake_rtc_io_lock()
{
write_lockfile("/sys/power/wake_lock", "rtc_io_lock");
}
static void wake_rtc_io_unlock()
{
write_lockfile("/sys/power/wake_unlock", "rtc_io_lock");
}
static void wake_timeout_lock(char *lockname, unsigned long interval)
{
char cmd[100] = {0};
sprintf(cmd, "echo %s %lu > /sys/power/wake_lock", lockname, interval);
soft_system(cmd);
}
static int init_rtc_alarm(void)
{
FILE* fp = NULL;
int gap_start = 0;
int gap_end = 0;
size_t size = 0;
long cur_rtc_time = 0;
ALARM_T* iter = NULL;
RTC_DATA_BUF buf = {0};
int ret = -1;
// cur_rtc_time = get_RtcTime();
cur_rtc_time = time(0);
if ((fp = (FILE*)fopen(RTC_ALARM_DATA, "rb")) == NULL)
{
slog(RTC_PRINT, SLOG_ERR, "rtc-service: failed to open %s \n", RTC_ALARM_DATA);
return -1;
}
while(1)
{
size = fread(&gap_start, sizeof(int), 1, fp);//0xa5a5
if(0 == size || gap_start != DATA_S ||feof(fp) != 0 )
break;
iter = (ALARM_T*)malloc(sizeof(ALARM_T));
if(iter)
memset(iter,0,sizeof(ALARM_T));
else
{
fclose(fp);
return -1;
}
size = fread(iter, sizeof(ALARM_T), 1, fp);//struct
if(0 ==size||feof(fp) != 0)//check the end of the file
{
memset(iter, 0, sizeof(ALARM_T));//kw
free(iter);
break;
}
size = fread(&gap_end, sizeof(int), 1, fp);//0x5a5a
if(0 == size || gap_end != DATA_E ||feof(fp) != 0)
{
memset(iter, 0, sizeof(ALARM_T));//kw
free(iter);
break;
}
if(iter->interval < 0 || iter->interval > LONG_MAX-1)
{
iter->interval = 0 ;
}
if(iter->time_val < 0 || iter->time_val > LONG_MAX-1)
{
iter->time_val = 0 ;
}
if(cur_rtc_time > iter->interval + iter->time_val)
{
buf.module = iter->rtc_id;
buf.time_val = iter->time_val + iter->interval;
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: handle_alarm_timeout: target:0x%x, rtc_id:0x%x, utc:%d, cur_rtc_time:%ld \n", iter->module_id, buf.module, iter->is_utc, cur_rtc_time);
ret = ipc_send_message2(MODULE_ID_RTC_SERVICE, iter->module_id, RTC_MSG_ALARM_ELAPSED, sizeof(RTC_DATA_BUF), (unsigned char*)&buf, 0);
if (ret != 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: ipc_send_message unexpected\n");
}
}
list_add_tail(&iter->list, &rtc_alarm_list);
if(feof(fp) != 0)//check the end of the file
break;
}
fclose(fp);
return 0;
}
static int save_rtc_alarm(void)
{
FILE* fp = NULL;
int gap_start = DATA_S;
int gap_end = DATA_E;
ALARM_T *temp = NULL;
if ((fp = (FILE*)fopen(RTC_ALARM_DATA, "wb")) == NULL)
{
slog(RTC_PRINT, SLOG_ERR, "rtc-service: failed to open %s \n", RTC_ALARM_DATA);
return -1;
}
if (!list_empty(&rtc_alarm_list)) {
list_for_each_entry(temp, &rtc_alarm_list, list) {
if(temp->wakeup)
{
fwrite(&gap_start, sizeof(int), 1, fp);
fwrite(temp, sizeof(ALARM_T), 1, fp);
fwrite(&gap_end, sizeof(int), 1, fp);
}
}
}
fflush(fp);
if(fsync(fileno(fp)) < 0)
{
// todo: cov M
}
fclose(fp);
return 0;
}
/********************************************
¹¦ÄÜ:´ò¿ªrtc
*******************************************/
static int open_rtc(void)
{
int fd = 0;
fd = open(RTC_DEV_NAME, O_RDWR);
if (fd < 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: Open %s error!\n", RTC_DEV_NAME);
return fd;
}
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: Open %s OK!\n", RTC_DEV_NAME);
return fd;
}
/********************************************
¹¦ÄÜ:¹Ø±Õrtc
*******************************************/
static void close_rtc(int fd)
{
if (fd < 0) {
return;
}
close(fd);
}
/********************************************
* handle_get_time
* get RTC time.
*******************************************/
static int handle_get_time(MSG_BUF *pmsg_buf)
{
struct rtc_time rtc_tm = {0};
int ret = 0;
RTC_DATA_BUF * buf = pmsg_buf->aucDataBuf;
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_get_time NOOPS.\n");
if(buf->cpu == RTC_CPU_CAP)
{
int cmd = RTC_MSG_GET_TIME;
RTC_DATA_BUF sendbuf = {0};
unsigned long cur_sec =0;
ret = ioctl(g_rtc_fd, RTC_RD_TIME, &rtc_tm);
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: handle_get_time tm_year:%d, tm_mon:%d, tm_hour:%d, tm_min:%d, tm_yday:%d, tm_mday:%d, tm_wday:%d.\n",
rtc_tm.tm_year, rtc_tm.tm_mon, rtc_tm.tm_hour, rtc_tm.tm_min, rtc_tm.tm_yday, rtc_tm.tm_mday, rtc_tm.tm_wday);
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: handle_get_time src_id:0x%x, buf->cpu:%d.\n",buf->srcModule,buf->cpu);
cur_sec = mktime(&rtc_tm);
sendbuf.srcModule = buf->srcModule;
sendbuf.cpu = RTC_CPU_AP;
sendbuf.ulSec = cur_sec;
slog(RTC_PRINT, SLOG_NORMAL, "[rtc] handle_get_time: send to cap cmd:0x%x, srcMod:0x%x, cur_sec:%lu \n", cmd, sendbuf.srcModule, sendbuf.ulSec);
ret = send_soc_msg(FAR_PS, MODULE_ID_RTC_SERVICE, cmd, sizeof(RTC_DATA_BUF), (void *)&sendbuf);
if (ret != 0)
{
slog(RTC_PRINT, SLOG_ERR, "rtc-service: ipc_send_message unexpected,ret:%d\n",ret);;
}
}
return 0;
}
/********************************************
* ¹¦ÄÜ:ÉèÖÃrtcʱ¼ä
*******************************************/
static int handle_set_time(MSG_BUF *pmsg_buf)
{
time_t os_time = 0;
struct tm tmTime = {0};
struct rtc_time rtc_tm = {0};
int ret = 0;
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_set_time enter.\n");
memcpy(&os_time, pmsg_buf->aucDataBuf, sizeof(time_t));
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_set_time enter: set time: %ld \n", os_time);
convert_time(os_time, &tmTime, CONVERT_TYPE_RTC);
memcpy(&rtc_tm, &tmTime, sizeof(struct rtc_time));
slog(RTC_PRINT, SLOG_ERR, "Time:%ld, tm_year:%d, tm_mon:%d, tm_hour:%d, tm_min:%d, tm_sec:%d, tm_yday:%d, tm_mday:%d, tm_wday:%d \n",
mktime(&tmTime), rtc_tm.tm_year, rtc_tm.tm_mon, rtc_tm.tm_hour, rtc_tm.tm_min, tmTime.tm_sec, rtc_tm.tm_yday, rtc_tm.tm_mday, rtc_tm.tm_wday);
ret = ioctl(g_rtc_fd, RTC_SET_TIME, &rtc_tm);
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: RTC_SET_TIME ioctl ret = %d exit.\n", ret);
{
char buf[32] = {0};
snprintf(buf,32,"AT+ZMMI=2,%d,%d\r\n",1900 + rtc_tm.tm_year,1 + rtc_tm.tm_mon);
ret = get_modem_info(buf, NULL, NULL);
slog(RTC_PRINT, SLOG_ERR, "rtc-service: handle_set_time ret=%d %s\n",ret,buf);
}
return 0;
}
/********************************************
* ¹¦ÄÜ:sntpͬ²½ÏµÍ³Ê±¼ä
*******************************************/
static int handle_sntp_update(MSG_BUF *pmsg_buf)
{
time_t os_time = 0;
struct timeval time_tv = {0};
int ret = 0;
memcpy(&os_time, pmsg_buf->aucDataBuf, sizeof(time_t));
time_tv.tv_sec = os_time;
ret = settimeofday(&time_tv,NULL);
if(ret!=0)
{
slog(RTC_PRINT, SLOG_ERR, "handle_sntp_update is fail,ret:%d \n",ret);
}
return 0;
}
/********************************************
* ¹¦ÄÜ:Ôö¼Ó¶¨Ê±Æ÷
*******************************************/
static int handle_alarm_add(MSG_BUF *pmsg_buf)
{
//long cur_rtc_time = 0;
struct rtc_time rtc_tm = {0};
ALARM_T *pAlarm = 0;
RTC_DATA_BUF *buf = pmsg_buf->aucDataBuf;
ALARM_T *temp = NULL;
int mark = 0;
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_alarm_add enter.\n");
if (buf->ulSec <= 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: handle_alarm_add invalid interval.\n");
return -1;
}
pAlarm = malloc(sizeof(ALARM_T));
if (pAlarm == NULL) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: handle_alarm_add no memory.\n");
return -1;
}
//»ñÈ¡µ±Ç°Ê±¼ä second
if(ioctl(g_rtc_fd, RTC_RD_TIME, &rtc_tm) < 0) // cov M CHECKED_RETURN
{
slog(RTC_PRINT, SLOG_ERR, "ioctl fail.\n");
}
memcpy(&pAlarm->rtc_tm, &rtc_tm, sizeof(rtc_tm));
pAlarm->rtc_id = buf->module;
pAlarm->module_id = buf->srcModule;
pAlarm->interval = buf->ulSec ; // count down time
pAlarm->remain_time = buf->ulSec; // remain count down time
pAlarm->wakeup = buf->wakeup;
pAlarm->is_utc = buf->is_utc;
pAlarm->cpu = buf->cpu;
pAlarm->time_val = buf->time_val;// cur_rtc_time is mktime(&local_tm)
//pAlarm->time_val = get_RtcTime();// cur_rtc_time is mktime(&local_tm)
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: handle_alarm_add pAlarm->interval is %ld ,pAlarm->time_val() is %ld, is_utc:%d.\n",
pAlarm->interval, pAlarm->time_val, pAlarm->is_utc);
/*
if (pAlarm->time_val + pAlarm->remain_time < cur_rtc_time) {
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service handle_alarm_add error, pAlarm->remain_time = %ld, pAlarm->time_val = %ld, current= %ld\n", pAlarm->remain_time, pAlarm->time_val, cur_rtc_time);
}
*/
#ifdef PRODUCT_NOT_USE_RTC
pAlarm->is_utc = 0; //´Ëģʽ϶¼°´timerÉèÖö¨Ê±Æ÷£¬²»Ö§³Öutc
pAlarm->wakeup = 0;
#endif
if (pAlarm->is_utc == 0) {
if (!list_empty(&rtc_timer_list)) {
//update_timer_remain(pAlarm->remain_time);
list_for_each_entry(temp, &rtc_timer_list, list) {
if (temp->remain_time > pAlarm->remain_time) {
mark = 1;
list_add(&pAlarm->list, temp->list.prev);
break;
}
}
}
if (mark == 0) {
list_add_tail(&pAlarm->list, &rtc_timer_list);
}
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: add rtc timer\n");
alarm_restart(&rtc_timer_list);
} else {
if (!list_empty(&rtc_alarm_list)) {
list_for_each_entry(temp, &rtc_alarm_list, list) {
if (temp->interval + temp->time_val > pAlarm->interval + pAlarm->time_val) {
mark = 1;
list_add(&pAlarm->list, temp->list.prev);
break;
}
}
}
if (mark == 0) {
list_add_tail(&pAlarm->list, &rtc_alarm_list);
}
if(pAlarm->wakeup)
save_rtc_alarm();
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: add rtc alarm \n");
alarm_restart(&rtc_alarm_list);
}
return 0;
}
/********************************************
* ¹¦ÄÜ:°´µ±Ç°¶¨Ê±Æ÷Ê£Óàʱ¼ä¸üж¨Ê±Æ÷
*******************************************/
static void update_timer_remain(int new_remian)
{
if (list_empty(&rtc_timer_list)) {
return;
}
int ret, remain_time;
ALARM_T *pTmp;
//list_entry(pTmp, &rtc_timer_list, list);
pTmp = list_entry(rtc_timer_list.next, ALARM_T, list);
#ifdef PRODUCT_NOT_USE_RTC
time_t cur = time(NULL);
remain_time = g_set_softtime + pTmp->remain_time - cur;
if ((remain_time > pTmp->remain_time) || (remain_time <= 0)) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: cur:%u, set:%u, remain:%u, inveral:%u\n", cur, g_set_softtime, remain_time, pTmp->remain_time);
//ʱ¼ä·¢Éú¹ýÖØÖõȣ¬Ö±½ÓÉèÖö¨Ê±Æ÷µ½£¬¸÷Ä£¿éÓ¦ÔÚÊÕµ½RTC_MSG_TIME_CHANGEDÏûϢʱ¼°Ê±¸üж¨Ê±Æ÷
remain_time = 0;
}
#else
ret = ioctl(g_rtc_fd, ZX234290_GET_TIMER_REMAIN, &remain_time);
#endif
if (ret < 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: handle_alarm_add no free alarm remain_time %d %s errno.\n", errno, strerror(errno));
// return -1;
}
//if(remain_time > new_remian)
{
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: pTmp->remain_time: %d, rtc remain_time: %d \n", pTmp->remain_time, remain_time);
alarm_adjust_value(pTmp->remain_time - remain_time);
alarm_fix_value(&rtc_timer_list);
}
}
/********************************************
* ¹¦ÄÜ:ɾ³ýÏûÏ¢Ô´Ä£¿éµÄËùÓж¨Ê±Æ÷
*******************************************/
static int handle_alarm_del(MSG_BUF *pmsg_buf)
{
RTC_DATA_BUF * buf = pmsg_buf->aucDataBuf;
ALARM_T *pTmp, *pTmp1;
int wakeup = 0;
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_alarm_del enter.\n");
list_for_each_entry_safe(pTmp, pTmp1, &rtc_timer_list, list) {
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_alarm_del timer module:0x%x - 0x%x, src:0x%x - 0x%x.\n",
buf->module, pTmp->rtc_id, buf->srcModule, pTmp->module_id);
if ((buf->module == pTmp->rtc_id) && (buf->srcModule == pTmp->module_id)&& (buf->cpu == pTmp->cpu)) {
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: handle_alarm_del timer module:0x%x , src:0x%x , cpu:%d \n",
buf->module, buf->srcModule, buf->cpu);
list_del(&pTmp->list);
free(pTmp);
break;
}
}
list_for_each_entry_safe(pTmp, pTmp1, &rtc_alarm_list, list) {
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_alarm_del alarm module:0x%x - 0x%x, src:0x%x - 0x%x.\n",
buf->module, pTmp->rtc_id, buf->srcModule, pTmp->module_id);
if ((buf->module == pTmp->rtc_id) && (buf->srcModule == pTmp->module_id)&& (buf->cpu == pTmp->cpu)) {
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: handle_alarm_del alarm module:0x%x , src:0x%x , cpu:%d \n",
buf->module, buf->srcModule, buf->cpu);
wakeup = pTmp->wakeup;
list_del(&pTmp->list);
free(pTmp);
break;
}
}
if(wakeup)
save_rtc_alarm();
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_alarm_del exit.\n");
return 0;
}
void send_ok_del_rsp(MSG_BUF *pmsg_buf)
{
RTC_DATA_BUF * buf = pmsg_buf->aucDataBuf;
if(buf->cpu == RTC_CPU_CAP)
{
int ret = 0;
RTC_DATA_BUF sendbuf = {0};
sendbuf.cpu = RTC_CPU_AP;
sendbuf.module = buf->module;
sendbuf.srcModule = buf->srcModule;
ret = send_soc_msg(FAR_PS, MODULE_ID_RTC_SERVICE, RTC_MSG_DEL_ALARM, sizeof(RTC_DATA_BUF), (void *)&sendbuf);
if (ret != 0)
{
slog(RTC_PRINT, SLOG_ERR, "send_ok_del_rsp: failed,ret:%d\n",ret);
}
}
}
/********************************************
*¹¦ÄÜ:¶¨Ê±Æ÷³¬Ê±´¦Àí
*******************************************/
static int handle_alarm_timeout(MSG_BUF *pmsg_buf)
{
long ret = -1;
ALARM_T *pAlarm;
RTC_DATA_BUF buf = {0};
long rtc_report_time = 0;
long alarm_node_time = 0;
enum RTC_MSG_CMD cmd = pmsg_buf->usMsgCmd;
int wakeup = 0;
if (cmd == RTC_MSG_TIMER_TIMEOUT && !list_empty(&rtc_timer_list)) {
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: rtc timer timeout\n");
pAlarm = list_entry(rtc_timer_list.next, ALARM_T, list);
} else if (cmd == RTC_MSG_ALARM_TIMEOUT && !list_empty(&rtc_alarm_list)) {
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: rtc alarm timeout\n");
pAlarm = list_entry(rtc_alarm_list.next, ALARM_T, list);
rtc_report_time = atol(pmsg_buf->aucDataBuf);
if (rtc_report_time < 0 || rtc_report_time > LONG_MAX-1)
{
rtc_report_time = 0;
}
alarm_node_time = pAlarm->interval + pAlarm->time_val;
if((rtc_report_time>alarm_node_time && (rtc_report_time-alarm_node_time)>g_time_offset)
||(alarm_node_time>rtc_report_time && (alarm_node_time-rtc_report_time)>g_time_offset))
{
slog(RTC_PRINT, SLOG_ERR, "rtc-service: rtc node was deleted, timeout unexpected; node:%ld, rtc:%ld \n", alarm_node_time, rtc_report_time);
alarm_fix_value(&rtc_alarm_list);
if(pAlarm->wakeup)
save_rtc_alarm();
alarm_restart(&rtc_alarm_list);
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_alarm_timeout restart alarm.\n");
return 0;
}
buf.time_val = alarm_node_time;
} else {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: timeout unexpected\n");
return -1;
}
wakeup = pAlarm->wakeup;
list_del(&pAlarm->list);
buf.module = pAlarm->rtc_id;
buf.srcModule = pAlarm->module_id;
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: handle_alarm_timeout: target:0x%x, rtc_id:0x%x, utc:%d \n", pAlarm->module_id, buf.module, pAlarm->is_utc);
if(pAlarm->cpu == RTC_CPU_AP)
{
ret = ipc_send_message2(MODULE_ID_RTC_SERVICE, pAlarm->module_id, RTC_MSG_ALARM_ELAPSED, sizeof(RTC_DATA_BUF), (unsigned char*)&buf, 0);
if (ret != 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: ipc_send_message unexpected,ret:%d\n",ret);
}
}
else
{
buf.module = pAlarm->rtc_id;
buf.srcModule = pAlarm->module_id;
buf.cpu = RTC_CPU_AP;
buf.is_utc = pAlarm->is_utc;
slog(RTC_PRINT, SLOG_NORMAL, "[rtc] handle_alarm_timeout: send to cap cmd:0x%x, srcMod:0x%x, module:0x%x, utc:%d \n", cmd, buf.srcModule, buf.module, pAlarm->is_utc);
ret = send_soc_msg(FAR_PS, MODULE_ID_RTC_SERVICE, cmd, sizeof(RTC_DATA_BUF), (void *)&buf);
if (ret != 0)
{
slog(RTC_PRINT, SLOG_ERR, "rtc-service: ipc_send_message unexpected,ret:%d\n",ret);;
}
}
if (pAlarm->is_utc == 0) {
alarm_adjust_value(pAlarm->remain_time);
alarm_fix_value(&rtc_timer_list);
alarm_restart(&rtc_timer_list);
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_alarm_timeout restart imer.\n");
} else {
alarm_fix_value(&rtc_alarm_list);
if(wakeup)
save_rtc_alarm();
alarm_restart(&rtc_alarm_list);
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_alarm_timeout restart alarm.\n");
}
free(pAlarm);
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: handle_alarm_timeout exit.\n");
return 0;
}
/********************************************
* ¹¦ÄÜ:ɾ³ý¹Ø»ú²»±£´æµÄ¶¨Ê±Æ÷
*******************************************/
static void handle_del_all(MSG_BUF *pmsg_buf)
{
ALARM_T *pTmp, *pTmp1;
update_timer_remain(0);
list_for_each_entry_safe(pTmp, pTmp1, &rtc_timer_list, list) {
if (pTmp->wakeup == 0) {
list_del(&pTmp->list);
free(pTmp);
}
}
alarm_restart(&rtc_timer_list);
list_for_each_entry_safe(pTmp, pTmp1, &rtc_alarm_list, list) {
if (pTmp->wakeup == 0) {
list_del(&pTmp->list);
free(pTmp);
}
}
alarm_restart(&rtc_alarm_list);
}
/********************************************
* ¹¦ÄÜ:sntpͬ²½³É¹¦ºó£¬¸üÐÂalarm_list
*******************************************/
static void update_alarm()
{
ALARM_T *pTmp, *pTmp1;
//long sec = get_RtcTime();
long sec = time(0);
RTC_DATA_BUF buf = {0};
#ifdef PRODUCT_NOT_USE_RTC
list_for_each_entry_safe(pTmp, pTmp1, &rtc_timer_list, list) {
buf.module = pTmp->rtc_id;
ipc_send_message2(MODULE_ID_RTC_SERVICE, pTmp->module_id, RTC_MSG_TIME_CHANGED, sizeof(RTC_DATA_BUF), (unsigned char*)&buf, 0);
if(pTmp->is_utc){
if (pTmp->interval + pTmp->time_val < sec) {
list_del(&pTmp->list);
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: delete ELAPSED timer, alarm_id(%d), alarm_time(%ld).\n", pTmp->rtc_id, (pTmp->interval + pTmp->time_val));
free(pTmp);
} else {
pTmp->remain_time = pTmp->interval + pTmp->time_val - sec;
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: timer adjust, alarm_id(%d), alarm_time(%ld), remain(%ld).\n", pTmp->rtc_id, (pTmp->interval + pTmp->time_val), pTmp->remain_time);
}
}
}
alarm_restart(&rtc_timer_list);
#else
list_for_each_entry_safe(pTmp, pTmp1, &rtc_alarm_list, list) {
buf.module = pTmp->rtc_id;
ipc_send_message2(MODULE_ID_RTC_SERVICE, pTmp->module_id, RTC_MSG_TIME_CHANGED, sizeof(RTC_DATA_BUF), (unsigned char*)&buf, 0);
if (pTmp->interval + pTmp->time_val < sec) {
list_del(&pTmp->list);
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: delete ELAPSED alarm, alarm_id(%d), alarm_time(%ld).\n", pTmp->rtc_id, (pTmp->interval + pTmp->time_val));
free(pTmp);
}
}
alarm_restart(&rtc_alarm_list);
#endif
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: update_alarm exit cur_rtc_time: % ld.\n", sec);
}
/********************************************
* ¹¦ÄÜ:¸üж¨Ê±Æ÷Ê£Óàʱ¼ä
*******************************************/
static void alarm_adjust_value(int time)
{
ALARM_T * temp;
list_for_each_entry(temp, &rtc_timer_list, list) {
temp->remain_time -= time;
}
}
/********************************************
*¹¦ÄÜ: ɾ³ýÎÞЧ¶¨Ê±Æ÷
*******************************************/
static void alarm_fix_value(struct list_head *rtc_list)
{
ALARM_T *pTmp, *pTmp1;
RTC_DATA_BUF buf = {0};
int wakeup = 0;
int ret =0;
enum RTC_MSG_CMD cmd = 0;
if (rtc_list == &rtc_timer_list) {
list_for_each_entry_safe(pTmp, pTmp1, rtc_list, list) {
if (pTmp->remain_time <= 0) {
buf.module = pTmp->rtc_id;
if(pTmp->cpu == RTC_CPU_CAP)
{
buf.srcModule = pTmp->module_id;
buf.cpu = RTC_CPU_AP;
buf.is_utc = pTmp->is_utc;
cmd = RTC_MSG_TIMER_TIMEOUT;
slog(RTC_PRINT, SLOG_NORMAL, "[rtc] handle_alarm_timeout: send to cap cmd:0x%x, srcMod:0x%x, module:0x%x, utc:%d \n", cmd, buf.srcModule, buf.module, buf.is_utc);
ret = send_soc_msg(FAR_PS, MODULE_ID_RTC_SERVICE, cmd, sizeof(RTC_DATA_BUF), (void *)&buf);
if (ret != 0)
{
slog(RTC_PRINT, SLOG_ERR, "rtc-service: send_soc_msg unexpected,ret:%d\n",ret);;
}
}
else
{
ipc_send_message2(MODULE_ID_RTC_SERVICE, pTmp->module_id, RTC_MSG_ALARM_ELAPSED, sizeof(RTC_DATA_BUF), (unsigned char*)&buf, 0);
}
list_del(&pTmp->list);
free(pTmp);
}
}
} else if (rtc_list == &rtc_alarm_list) {
list_for_each_entry_safe(pTmp, pTmp1, rtc_list, list) {
if (pTmp->time_val + pTmp->interval <= (time(0) + g_time_offset)) {
if(pTmp->wakeup)
wakeup = pTmp->wakeup;
buf.module = pTmp->rtc_id;
buf.time_val = pTmp->time_val + pTmp->interval;
if(pTmp->cpu == RTC_CPU_CAP)
{
buf.srcModule = pTmp->module_id;
buf.cpu = RTC_CPU_AP;
buf.is_utc = pTmp->is_utc;
cmd = RTC_MSG_ALARM_TIMEOUT;
slog(RTC_PRINT, SLOG_NORMAL, "[rtc] handle_alarm_timeout: send to cap cmd:0x%x, srcMod:0x%x, module:0x%x, utc:%d \n", cmd, buf.srcModule, buf.module, buf.is_utc);
ret = send_soc_msg(FAR_PS, MODULE_ID_RTC_SERVICE, cmd, sizeof(RTC_DATA_BUF), (void *)&buf);
if (ret != 0)
{
slog(RTC_PRINT, SLOG_ERR, "rtc-service: send_soc_msg unexpected,ret:%d\n",ret);;
}
}
else
{
ipc_send_message2(MODULE_ID_RTC_SERVICE, pTmp->module_id, RTC_MSG_ALARM_ELAPSED, sizeof(RTC_DATA_BUF), (unsigned char*)&buf, 0);
}
list_del(&pTmp->list);
free(pTmp);
}
}
if(wakeup)
save_rtc_alarm();
}
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: alarm_fix_value exit.\n");
}
#ifdef PRODUCT_NOT_USE_RTC
/*¶ÔӦûÓÐrtcµÄ²úÆ·£¬rtc¶¨Ê±Æ÷ÊÊÅäµ½softtimerµÄ»Øµ÷º¯Êý*/
static void rtc_set_softtimer_cb(void *param)
{
int ret = -1;
slog(NET_PRINT, SLOG_ERR, "rtc-service: rtc_adapt_softtimer_cb \n");
ret = ipc_send_message(MODULE_ID_RTC_SERVICE, MODULE_ID_RTC_SERVICE, RTC_MSG_TIMER_TIMEOUT, 0, 0, 0);;
if (ret != 0) {
slog(MISC_PRINT, SLOG_ERR, "rtc-service: set rtc timer send msg failed \n");
}
return 0;
}
#endif
/********************************************
* ¹¦ÄÜ:ÖØÆô¶¨Ê±Æ÷£¬Ã»ÓÐÔò¹Ø±Õ¶¨Ê±Æ÷
*******************************************/
static void alarm_restart(struct list_head *rtc_list)
{
int ret = 0;
//struct tm *p_tm = 0;
struct tm ret_tm = {0};
struct rtc_wkalrm alarm = {0};
long tVal = 0;
long remain = -1;
ALARM_T *ptmp = NULL;
long cur_rtc_time = time(0);
RTC_DATA_BUF buf = {0};
NEXT:
if (!list_empty(rtc_list)) {
ptmp = list_entry(rtc_list->next, ALARM_T, list);
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: alarm_restart enter.\n");
memset(&buf, 0, sizeof(RTC_DATA_BUF));
if (ptmp->is_utc == 0) {
#ifdef PRODUCT_NOT_USE_RTC
g_set_softtime = time(NULL);
sc_timer_delete(RTC_USE_SOFTTIMER_ID);
ret = sc_timer_create(RTC_USE_SOFTTIMER_ID, TIMER_FLAG_ONCE, ptmp->remain_time*1000, rtc_set_softtimer_cb, NULL);
#else
ret = ioctl(g_rtc_fd, ZX234290_SET_TIMER, ptmp->remain_time);
#endif
if (ret != 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: alarm_restart timer: set failed, ret:%d \n", ret);
return;
}
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: alarm_restart: set timer ok, remain_time:%ld, cur_rtc_time:%ld, module:0x%x, rtc_id:0x%x\n", ptmp->remain_time, cur_rtc_time, ptmp->module_id, ptmp->rtc_id);
} else {
tVal = ptmp->interval + ptmp->time_val;
remain = tVal - cur_rtc_time;
if (remain <= g_time_offset) {
//¹ýʱ¶¨Ê±Æ÷¶ªÆú´¦Àí£¬Èç¹û¶àÄ£¿éÕýºÃÉèµÄ»ù±¾ÔÚͬһ¸öʱ¼äµã£¬ºóÕ߻ᱻ¶ªÆú£¬¿¼ÂÇÐ޸ijÉÖ±½Ó֪ͨģ¿éʱ¼äµ½
slog(RTC_PRINT, SLOG_ERR, "rtc-service: remain time error, time_set:%ld, remain:%ld, alarmer:%ld, interval:%ld, current:%ld, module:0x%x, rtc_id:0x%x\n", ptmp->time_val, remain, tVal, ptmp->interval, cur_rtc_time, ptmp->module_id, ptmp->rtc_id);
buf.module = ptmp->rtc_id;
buf.time_val = ptmp->time_val + ptmp->interval;
ipc_send_message2(MODULE_ID_RTC_SERVICE, ptmp->module_id, RTC_MSG_ALARM_ELAPSED, sizeof(RTC_DATA_BUF), (unsigned char*)&buf, 0);
list_del(&ptmp->list);
free(ptmp);
ptmp = NULL;
goto NEXT;
}
//localtime_r(&tVal, &ret_tm);
gmtime_r(&tVal, &ret_tm);
memcpy(&alarm.time, &ret_tm, sizeof(struct rtc_time));
alarm.enabled = 1;
/*Ê×ÏÈ´ò¿ªalarm ÖжÏ*/
ret = ioctl(g_rtc_fd, RTC_AIE_ON);
if (ret != 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: open alarm failed, ret:%d\n", ret);
return;
}
/*ÉèÖÃalarm ʱ¼ä*/
ret = ioctl(g_rtc_fd, RTC_WKALM_SET, &alarm);
if (ret != 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: set alarm failed, ret:%d\n", ret);
return;
}
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: alarm_restart set alarm ok, remain_time:%ld, cur_rtc_time:%ld, module:0x%x, rtc_id:0x%x \n", remain, cur_rtc_time, ptmp->module_id, ptmp->rtc_id);
}
} else {
if (rtc_list == &rtc_timer_list) {
//¹Ø±Õrtc time, Éè¼ä¸ôʱ¼äΪ0
ret = ioctl(g_rtc_fd, ZX234290_TIMER_ENABLED, 0);
if (ret != 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: disable timer failed, ret:%d\n", ret);
return;
}
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: alarm_restart disable timer ok \n");
} else {
/*¹Ø±Õalarm ÖжÏ*/
ret = ioctl(g_rtc_fd, RTC_AIE_OFF);
if (ret != 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: disable alarm failed, ret:%d\n", ret);
return;
}
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: alarm_restart disable alarm ok \n");
}
}
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: alarm_restart exit.\n");
}
static void rtc_set_local_time(MSG_BUF *msg)
{
struct tm set_tm = {0};
struct timeval time_tv;
slog(RTC_PRINT, SLOG_DEBUG, "rtc_set_local_time, %d, %d \n", sizeof(struct tm), msg->usDataLen);
memcpy(&set_tm, msg->aucDataBuf, msg->usDataLen);
slog(RTC_PRINT, SLOG_ERR, "rtc_set_local_time, year:%d, month:%d, day:%d, hour:%d, min:%d, sec:%d, wday:%d \n",
set_tm.tm_year, set_tm.tm_mon, set_tm.tm_mday, set_tm.tm_hour, set_tm.tm_min, set_tm.tm_sec, set_tm.tm_wday);
time_tv.tv_sec = mktime(&set_tm);
if(time_tv.tv_sec < 0)
{
slog(RTC_PRINT, SLOG_DEBUG, "mktime fail, set time_tv.tv_sec to 0 \n");
time_tv.tv_sec = 0;
}
time_tv.tv_usec = 0;
if (0 != settimeofday(&time_tv, NULL))
slog(RTC_PRINT, SLOG_ERR, "rtc_set_local_time failed \n");
}
/********************************************
* process_msg
* handle the specified MSG.
*******************************************/
static int process_msg(MSG_BUF *pmsg_buf)
{
enum RTC_MSG_CMD cmd = pmsg_buf->usMsgCmd;
unsigned short req_cmd = 0;
switch (cmd) {
case RTC_MSG_GET_TIME:
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: process_msg RTC_MSG_GET_TIME, src:0x%x.\n", pmsg_buf->src_id);
handle_get_time(pmsg_buf);
break;
case RTC_MSG_SET_TIME:
security_log(pmsg_buf->src_id,"set time");
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: process_msg RTC_MSG_SET_TIME, src:0x%x.\n", pmsg_buf->src_id);
handle_set_time(pmsg_buf);
update_alarm();
break;
case RTC_MSG_SNTP_UPDATE:
handle_sntp_update(pmsg_buf);
break;
case RTC_MSG_ADD_ALARM:
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: process_msg RTC_MSG_ADD_ALARM, src:0x%x, g_clean_flag = %d.\n", pmsg_buf->src_id, g_clean_flag);
//Ìí¼ÓrtcÇ°ÏÈɾ³ý´Ërtc_idÒÑÌí¼Ó¼Ç¼£¬Ã¿¸örtc_idÖ»±£Áô1¸ö¶¨Ê±Æ÷
if(0 == g_clean_flag){
update_timer_remain(0);
handle_alarm_del(pmsg_buf);
handle_alarm_add(pmsg_buf);
}
else{
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: g_clean_flag is nonzero:0x%x, dont add alarm.\n", g_clean_flag);
}
//wifi´¦ÀíÍêÇ°²»ÄÜÐÝÃߣ¬ÔÝʱʹÓÃÑÓʱËø£¬´ý·½°¸×é¸ø³ö·½°¸ºóÔÙµ÷Õû
//if (pmsg_buf->usSourceModuleID == MODULE_ID_WDT)
//write_lockfile("/sys/power/wake_unlock", "rtc_io_time_timeout_lock");
break;
case RTC_MSG_DEL_ALARM:
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: process_msg RTC_MSG_DEL_ALARM, src:0x%x.\n", pmsg_buf->src_id);
update_timer_remain(0);
handle_alarm_del(pmsg_buf);
send_ok_del_rsp(pmsg_buf);
alarm_restart(&rtc_timer_list);
alarm_restart(&rtc_alarm_list);
break;
case RTC_MSG_ALARM_TIMEOUT:
case RTC_MSG_TIMER_TIMEOUT:
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: process_msg RTC_TIMEOUT, src:0x%x, cmd:0x%x.\n", pmsg_buf->src_id, cmd);
handle_alarm_timeout(pmsg_buf);
break;
case RTC_MSG_DEL_ALL:
slog(RTC_PRINT, SLOG_NORMAL, "rtc-service: process_msg RTC_MSG_DEL_ALL, src:0x%x.\n", pmsg_buf->src_id);
memcpy(&req_cmd, pmsg_buf->aucDataBuf, sizeof(unsigned short));
if(MSG_CMD_RESET_RSP == req_cmd || MSG_CMD_POWEROFF_RSP == req_cmd || MSG_CMD_RESTART_RSP == req_cmd){
g_clean_flag = req_cmd;
}
handle_del_all(pmsg_buf);
save_rtc_alarm();
//ÕâÀﻹÐèҪ֪ͨÖ÷¿Ø
ipc_send_message(MODULE_ID_RTC_SERVICE, pmsg_buf->src_id, req_cmd, 0, 0, 0);
break;
default:
break;
}
return 0;
}
/********************************************
* process_msg_rtc_ap
* handle the specified MSG to cap, because rtc driver is at cap
*******************************************/
static int process_msg_rtc_cap(MSG_BUF *pmsg_buf)
{
enum RTC_MSG_CMD cmd = pmsg_buf->usMsgCmd;
unsigned short req_cmd = 0;
int ret = 0;
struct tm *ptm = NULL;
RTC_DATA_BUF *buf = NULL;
int dst_id = 0;
switch (cmd) {
case RTC_MSG_GET_TIME:
buf = (RTC_DATA_BUF *)pmsg_buf->aucDataBuf;
slog(RTC_PRINT, SLOG_NORMAL, "to cap: RTC_MSG_GET_TIME \n");
if(buf->cpu == RTC_CPU_AP)
{
ret = send_soc_msg(FAR_PS, MODULE_ID_RTC_SERVICE, cmd, pmsg_buf->usDataLen, (void *)pmsg_buf->aucDataBuf);
if (ret != 0) {
slog(RTC_PRINT, SLOG_ERR, "process_msg_to_cap: ipc_send_message unexpected,ret:%d\n",ret);
}
}
else
{
slog(RTC_PRINT, SLOG_NORMAL, "receive rtc time from cap core : RTC_MSG_GET_TIME :%lu \n",buf->ulSec);
}
break;
case RTC_MSG_SET_TIME:
ptm = (struct tm *)pmsg_buf->aucDataBuf;
if(pmsg_buf->src_id == MODULE_ID_CP_RTC_SERVICE)
{
rtc_set_local_time(pmsg_buf);
}
else
{
slog(RTC_PRINT, SLOG_NORMAL, "to cap: cmd:0x%x, %d-%d-%d %d:%d:%d \n", cmd, ptm->tm_year, ptm->tm_mon, ptm->tm_mday, ptm->tm_hour, ptm->tm_min, ptm->tm_sec);
ret = send_soc_msg(FAR_PS, MODULE_ID_RTC_SERVICE, cmd, pmsg_buf->usDataLen, (void *)pmsg_buf->aucDataBuf);
if (ret != 0)
{
slog(RTC_PRINT, SLOG_ERR, "process_msg_to_cap: ipc_send_message unexpected,ret:%d\n",ret);
}
}
break;
case RTC_MSG_SNTP_UPDATE:
handle_sntp_update(pmsg_buf);
break;
case RTC_MSG_ADD_ALARM:
case RTC_MSG_DEL_ALARM:
buf = (RTC_DATA_BUF *)pmsg_buf->aucDataBuf;
if (buf->cpu == RTC_CPU_AP)
{
slog(RTC_PRINT, SLOG_NORMAL, "to cap: cmd:0x%x, module:0x%x, msg_id:0x%x, sec:%ld: cpu:%d, utc:%d, wakeup:%d \n", cmd, buf->module, buf->srcModule, buf->ulSec, buf->cpu, buf->is_utc, buf->wakeup);
ret = send_soc_msg(FAR_PS, MODULE_ID_RTC_SERVICE, cmd, pmsg_buf->usDataLen, (void *)pmsg_buf->aucDataBuf);
if (ret != 0)
{
slog(RTC_PRINT, SLOG_ERR, "process_msg_to_cap: ipc_send_message unexpected,ret:%d\n",ret);
}
}
else
{
slog(RTC_PRINT, SLOG_NORMAL, "from cap: cmd:0x%x, module:0x%x, msg_id:0x%x, del ok \n", cmd, buf->module, buf->srcModule);
}
break;
case RTC_MSG_ALARM_TIMEOUT:
case RTC_MSG_TIMER_TIMEOUT:
buf = (RTC_DATA_BUF *)pmsg_buf->aucDataBuf;
if (buf->cpu == RTC_CPU_CAP)
{
slog(RTC_PRINT, SLOG_NORMAL, "from cap: cmd:0x%x(timeout), module:0x%x, msg_id:0x%x, sec:%ld: %d, %d, %d \n", cmd, buf->module, buf->srcModule, buf->ulSec, buf->cpu, buf->is_utc, buf->wakeup);
ret = ipc_send_message(MODULE_ID_RTC_SERVICE, buf->srcModule, RTC_MSG_ALARM_ELAPSED, sizeof(RTC_DATA_BUF), buf, 0);
if (ret != 0)
{
slog(RTC_PRINT, SLOG_ERR, "process_msg_to_cap: ipc_send_message unexpected,ret:%d\n",ret);
}
}
break;
case RTC_MSG_DEL_ALL:
slog(RTC_PRINT, SLOG_NORMAL, "process_msg_to_cap RTC_MSG_DEL_ALL, src:0x%x.\n", pmsg_buf->src_id);
memcpy(&req_cmd, pmsg_buf->aucDataBuf, sizeof(unsigned short));
//ÕâÀﻹÐèҪ֪ͨÖ÷¿Ø
ipc_send_message(MODULE_ID_RTC_SERVICE, pmsg_buf->src_id, req_cmd, 0, 0, 0);
ret = send_soc_msg(FAR_PS, MODULE_ID_RTC_SERVICE, cmd, pmsg_buf->usDataLen, (void *)pmsg_buf->aucDataBuf);
if (ret != 0)
{
slog(RTC_PRINT, SLOG_ERR, "process_msg_to_cap: ipc_send_message unexpected,ret:%d\n",ret);
}
break;
case RTC_MSG_TIME_CHANGED:
buf = (RTC_DATA_BUF *)pmsg_buf->aucDataBuf;
slog(RTC_PRINT, SLOG_ERR, "process_msg_to_cap: RTC_MSG_TIME_CHANGED, dst_id:0x%x.\n",buf->srcModule);
ipc_send_message(MODULE_ID_RTC_SERVICE, buf->srcModule, RTC_MSG_TIME_CHANGED, 0, 0, 0);
break;
default:
break;
}
return 0;
}
static int rtc_service_sock_init()
{
int sockfd = 0;
int ret;
struct sockaddr_nl snl;
bzero(&snl, sizeof(struct sockaddr_nl));
snl.nl_family = AF_NETLINK;
snl.nl_pid = getpid();
snl.nl_groups = 1;
if (signal(SIGPIPE, SIG_IGN) == SIG_ERR)
perror ("signal");
sockfd = socket(PF_NETLINK, SOCK_DGRAM, NETLINK_KOBJECT_UEVENT);
if (sockfd < 0)
{
slog(RTC_PRINT,SLOG_ERR, "create rtc service socket failed!\n");
return -1;
}
// setsockopt(sockfd, SOL_SOCKET, SO_RCVBUF, &buffersize, sizeof(buffersize));
ret = bind(sockfd, (struct sockaddr *)&snl, sizeof(struct sockaddr_nl));
if (ret < 0)
{
slog(RTC_PRINT,SLOG_ERR, "rtc service socket bind fail!\n");
close(sockfd);
return -1;
}
return sockfd;
}
//change@/devices/platform/zx29_i2c.0/i2c-0/0-0012/zx234290-rtc
static int rtc_time_msg_parse(const char *msg, int msglen)
{
int offlen = 0;
const char *keys = NULL;
char* timeStr = NULL;
char *pSec = NULL;
slog(RTC_PRINT,SLOG_ERR, "[%s][%d] zx234290-rtc \n", __func__, __LINE__);
offlen += strlen((char *)msg) + 1;
while (offlen <= msglen) {
keys = (char *)(msg + offlen);
//slog(NET_PRINT,SLOG_ERR, "[%s][%d] zx234290-rtc%s, %d\n", __func__, __LINE__, keys, offlen);
if (strncmp(keys, RTC_ALARM_TIMEOUT_MSG, strlen(RTC_ALARM_TIMEOUT_MSG)) == 0)
{
#if 1 // cov M DEADCODE
pSec = strstr(keys, "sec:");
if (pSec == NULL) {
slog(RTC_PRINT,SLOG_ERR, "zx234290-rtc event no sec \n");
return -1;
}
timeStr = pSec + strlen("sec:");
#else
timeStr = strstr(keys, "sec:") + strlen("sec:");
if (timeStr == NULL) {
slog(RTC_PRINT,SLOG_ERR, "zx234290-rtc event no sec \n");
return -1;
}
#endif
ipc_send_message2(MODULE_ID_HOTPLUG, MODULE_ID_RTC_SERVICE, RTC_MSG_ALARM_TIMEOUT, strlen(timeStr), timeStr, 0);
slog(RTC_PRINT,SLOG_NORMAL, "zx234290-rtc alarm timeout \n");
return 0;
}
else if (strncmp(keys, RTC_TIMER_TIMEOUT_MSG, strlen(keys)) == 0)
{
ipc_send_message2(MODULE_ID_HOTPLUG, MODULE_ID_RTC_SERVICE, RTC_MSG_TIMER_TIMEOUT, 0, NULL, 0);
slog(RTC_PRINT,SLOG_NORMAL, "zx234290-rtc timer timeout \n");
return 0;
}
offlen += strlen((char *)keys) + 1;
}
slog(RTC_PRINT,SLOG_ERR, "zx234290-rtc event not supported \n");
return -1;
}
/********************************************
* rtc_service_thread_process
* looper for processing zx234290-rtc msg.
*******************************************/
void rtc_event_process(void)
{
int rtc_service_fd = 0;
fd_set readfds;
int maxfd = 0;
char buf[RTC_MSG_BUFFER_SIZE] = {0};
int len = 0;
int ret = 0;
prctl(PR_SET_NAME, "rtceventhandle", 0, 0, 0);
rtc_service_fd = rtc_service_sock_init();
if(rtc_service_fd < 0)
{
slog(RTC_PRINT,SLOG_ERR, "rtc service socket init fail!\n");
return ;
}
maxfd = rtc_service_fd;
while (1)
{
FD_ZERO(&readfds);
FD_SET(rtc_service_fd, &readfds);
ret = select(maxfd + 1, &readfds, NULL, NULL, NULL);
if (ret == -1 && errno == EINTR)
continue;
if(FD_ISSET(rtc_service_fd, &readfds))
{
memset(buf, 0, sizeof(buf));
len = recv(rtc_service_fd, &buf, sizeof(buf), 0);
if(len <= 0)
{
slog(RTC_PRINT,SLOG_ERR, "rtc service socket recv msg fail!\n");
continue;
}
/*½øÐÐueventÏûÏ¢½âÎö£¬·µ»Ø½âÎö½á¹û*/
if (strstr(buf, "zx234290-rtc")){
rtc_time_msg_parse(buf, len);
}
continue;
}
}
}
/********************************************
* msg_looper
* main looper for processing MSG.
*******************************************/
static void msg_looper(void)
{
int ret = 0;
int msg_id = 0;
MSG_BUF msg_buf = {0};
// key_t msgkey = get_msg_key();
msg_id = msgget(MODULE_ID_RTC_SERVICE, IPC_CREAT | 0600);
memset(&msg_buf, 0, sizeof(msg_buf));
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: msg_looper enter(msgid=%d)&waiting...\n", msg_id);
while (1) {
ret = msgrcv(msg_id, &msg_buf, sizeof(MSG_BUF) - sizeof(long), 0, 0);
wake_rtc_lock();
if (ret <= 0) {
slog(RTC_PRINT, SLOG_ERR, "rtc-service: msg_looper recv msg break(%d)\n", ret);
wake_rtc_unlock();
continue;
}
slog(RTC_PRINT, SLOG_DEBUG, "rtc-service: msg_looper process_msg in, src:0x%x, target:0x%x.\n", msg_buf.src_id, msg_buf.dst_id);
#ifdef USE_CAP_SUPPORT
process_msg_rtc_cap(&msg_buf);
#else
process_msg(&msg_buf);
#endif
slog(RTC_PRINT, SLOG_ERR, "rtc-service: msg_looper process_msg out.\n");
wake_rtc_unlock();
}
}
static void print_rtc_list_info(void)
{
ALARM_T *temp = NULL;
int remain_time;
if(ioctl(g_rtc_fd, ZX234290_GET_TIMER_REMAIN, &remain_time) < 0) // cov M CHECKED_RETURN
{
slog(RTC_PRINT, SLOG_ERR, "ioctl fail.\n");
}
slog(RTC_PRINT, SLOG_ERR, "rtc-service: rtc remain_time :%ld \n", remain_time);
if (!list_empty(&rtc_timer_list)) {
list_for_each_entry(temp, &rtc_timer_list, list) {
slog(RTC_PRINT,SLOG_ERR, "rtc-service rtc_alarm_list node rtc_id:0x%x, module_id:0x%x, time_val:%ld, remain_time:%ld, cpu:%d\n",
temp->rtc_id,
temp->module_id,
temp->time_val,
temp->remain_time,
temp->cpu);
}
}
else {
slog(RTC_PRINT,SLOG_ERR, "rtc-service rtc_timer_list is empty!");
}
if (!list_empty(&rtc_alarm_list)) {
list_for_each_entry(temp, &rtc_alarm_list, list) {
slog(RTC_PRINT,SLOG_ERR, "rtc-service rtc_alarm_list node rtc_id:0x%x, module_id:0x%x, time_val:%ld, remain_time:%ld, cpu:%d, \
rtc_tm.tm_year:%d, rtc_tm.tm_mon:%d, rtc_tm.tm_mday:%d, rtc_tm.tm_min:%d, rtc_tm.tm_sec:%d \n",
temp->rtc_id,
temp->module_id,
temp->time_val,
temp->remain_time,
temp->cpu,
temp->rtc_tm.tm_year, temp->rtc_tm.tm_mon, temp->rtc_tm.tm_mday, temp->rtc_tm.tm_min, temp->rtc_tm.tm_sec);
}
}
else {
slog(RTC_PRINT,SLOG_ERR, "rtc-service rtc_alarm_list is empty!");
}
}
/* ÐźŴ¦Àí*/
static void sig_usr(int signo)
{
#if 0//(APP_OS_TYPE == APP_OS_LINUX)
if (signo == SIGUSR1)
{
slog(RTC_PRINT,SLOG_NORMAL, "rtc-service receive SIGUSR1! \n");
print_rtc_list_info();
}
else
{
slog(RTC_PRINT,SLOG_ERR, "rtc-service receive signo:%d", signo);
}
#endif
}
/*RTCÏûÏ¢½âÎö*/
int rtc_app_msg_parse(const char *msg, int msglen, struct hotplug_event *event)
{
if (strstr(msg, "zx234290-rtc")){
rtc_time_msg_parse(msg, msglen);
}
return -1;
}
/********************************************
* main
* entry of RTC-Service!
*******************************************/
int rtc_service_main(int argc, char **argv)
{
slog(RTC_PRINT,SLOG_DEBUG, "rtc-service enter...\n");
pthread_t rtcservice_thread_id;
pthread_attr_t attr;
int result = 0;
prctl(PR_SET_NAME, "rtc-service", 0, 0, 0);
//¸ù¾ÝNV³õʼ»¯´òÓ¡¼¶±ð£¬²¢×¢²á¶¯Ì¬µ÷Õû´òÓ¡¼¶±ðÐźÅÁ¿
loglevel_init();
if (signal(SIGUSR1, sig_usr) == SIG_ERR)
{
slog(RTC_PRINT,SLOG_ERR, "rtc-service not catch SIGUSR1 \n");
}
INIT_LIST_HEAD(&rtc_timer_list);
INIT_LIST_HEAD(&rtc_alarm_list);
g_clean_flag = 0;
//rtcÔÚAPʱ£¬½Úµã±ØÐë´ò¿ª³É¹¦£»ÔÚÆäËûºËʱÓÉÆäËûºËÅжÏ
#ifndef USE_CAP_SUPPORT
if ((g_rtc_fd = open_rtc()) < 0) {
slog(RTC_PRINT, SLOG_ERR, "Cannt open rtc dev!\n");
return -1;
}
init_rtc_alarm();
#endif
/*
pthread_attr_init(&attr);
pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED);
result = pthread_create(&rtcservice_thread_id, &attr, rtc_event_process, NULL);
pthread_attr_destroy(&attr);
if(result != 0)
{
slog(RTC_PRINT,SLOG_ERR, "[rtc-service] rtcservice_thread pthread_create faild!\n");
return -1;
}
else
{
printf("[rtc-service] rtcservice_thread pthread_create SUCCESS!\n");
}
*/
hotplug_parse_register(DEVICE_TYPE_APP_RTC, rtc_app_msg_parse);
msg_looper();
//klocwork
//close_rtc(g_rtc_fd);
//slog(RTC_PRINT, SLOG_ERR, "rtc-service exit...\n");
return 0;
}